Abstract is missing.
- A Universal Framework for Self-ReplicationBryant Adams, Hod Lipson. 1-9 [doi]
- Generic Properties of Chemical Networks: Artificial Chemistry Based on Graph RewritingGil Benkö, Christoph Flamm, Peter F. Stadler. 10-19 [doi]
- How to Program Artificial ChemistriesJens Busch, Wolfgang Banzhaf. 20-30 [doi]
- Artificial Life as an Aid to Astrobiology: Testing Life Seeking TechniquesFlorian Centler, Peter Dittrich, Lawrence Ku, Naoki Matsumaru, Jeffrey O. Pfaffmann, Klaus-Peter Zauner. 31-40 [doi]
- Molecularly Accessible PermutationsDónall A. Mac Dónaill. 41-50 [doi]
- Simulating Evolution s First StepsTim J. Hutton. 51-58 [doi]
- Cellular Evolution in a 3D Lattice Artificial ChemistryDuraid Madina, Naoaki Ono, Takashi Ikegami. 59-68 [doi]
- Evolution of Rewriting Rule Sets Using String-Based TierraKomei Sugiura, Hideaki Suzuki, Takayuki Shiose, Hiroshi Kawakami, Osamu Katai. 69-77 [doi]
- Models for the Conservation of Genetic Information with Stirng-Based Artificial ChemistryHideaki Suzuki. 78-88 [doi]
- Interaction Based Evolution of Self-Replicating Loop StructuresKeisuke Suzuki, Takashi Ikegami. 89-96 [doi]
- Architectural Design for the Survival Optimization of Panicking Fleeing VictimsRodrigo Escobar, Armando De La Rosa. 97-106 [doi]
- Meta-evolutionary Game Dynamics for Mathematical Modelling of Rules DynamicsTakashi Hashimoto, Yuya Kumagai. 107-117 [doi]
- Preventing Bluff Agent Invasions in Honest SocietiesRobert Lowe, Daniel Polani. 118-127 [doi]
- Effects of Group Composition and Level of Selection in the Evolution of Cooperation in Artificial AntsAndrés Pérez-Uribe, Dario Floreano, Laurent Keller. 128-137 [doi]
- Effects of Learning to Interact on the Evolution of Social Behavior of Agents in Continuous Predators-Prey Pursuit ProblemIvan Tanev, Katsunori Shimohara. 138-145 [doi]
- War and Peace among Artificial Nations - A Model and Simulation Based on a Two-Layered Multi-agent SystemTatsuo Unemi, Yoshiaki Kaneko, Ichiro Takahashi. 146-153 [doi]
- Developmental Neural Networks for AgentsAndy Balaam. 154-163 [doi]
- Revisiting Idiotypic Immune NetworksHugues Bersini. 164-174 [doi]
- Production of Gliders by Collisions in Rule 110Genaro Juárez Martínez, Harold V. McIntosh, Juan Carlos Seck Tuoh Mora. 175-182 [doi]
- A Computational Model of Neocortical-Hippocampal Cooperation and Its Application to Self-LocalizationMichail Maniadakis, Panos E. Trahanias. 183-190 [doi]
- Fascinating Rhythmus by Chaotic Hopfield NetworksColin Molter, Hugues Bersini. 191-198 [doi]
- Solving a Delayed Response Task with SpikingKeren Saggie, Alon Keinan, Eytan Ruppin. 199-208 [doi]
- First Steps in Evolving Path Integration in SimulationRobert Vickerstaff. 209-216 [doi]
- On the Dynamics of an Artificial Regulatory NetworkWolfgang Banzhaf. 217-227 [doi]
- Evoluiton and Growth of Virtual PlantsMarc Ebner. 228-237 [doi]
- Evolvability of the Genotype-Phenotype Relation in Populations of Self-Replicating Digital Organisms in a Tierra-Like SystemAttila Egri-Nagy, Chrystopher L. Nehaniv. 238-247 [doi]
- An Evolutionary Approach to Damage Recovery of robot Motion with MusclesSiavash Haroun Mahdavi, Peter J. Bentley. 248-255 [doi]
- Evolving Developmental Programs for Adaptation, Morphogenesis, and Self-RepairJulian F. Miller. 256-265 [doi]
- Evolving Embodied Genetic Regulatory Network-Driven Control SystemsTom Quick, Chrystopher L. Nehaniv, Kerstin Dautenhahn, Graham Roberts. 266-277 [doi]
- Evolution of Fault-Tolerant Self-Replicating StructuresLudovic Righetti, Solaiman Shokur, Mathieu S. Caparrere. 278-288 [doi]
- Evolving the Ability of Limited Growth and Self-Repair for Artificial EmbryosFelix Streichert, Christian Spieth, Holger Ulmer, Andreas Zell. 289-298 [doi]
- Caring versus Sharing: How to Maintain Engagement and Diversity in Coevolving PopulationsJohn Cartlidge, Seth Bullock. 299-308 [doi]
- Culture and the Baldwin EffectDiego Federici. 309-318 [doi]
- Evolutionary Network Minimization: Adaptive Implicit Pruning of Successful AgentsZohar Ganon, Alon Keinan, Eytan Ruppin. 319-327 [doi]
- Population Dynamics under Spatially and Temporally Heterogeneous Resource Limitations in Multi-agent NetworksThomas Glotzmann, Holger Lange, Michael Hauhs. 328-335 [doi]
- Adaptive Coupling and Intersubjectivity in Simulated Turn-Taking BehaviourHiroyuki Iizuka, Takashi Ikegami. 336-345 [doi]
- Distributed Genetic Algorithm: Learning by Direct Exchange of ChromosomsAles Kubík. 346-356 [doi]
- An Approach to Describe the Tierra Instruction Set Using Microoperations: The First ResultShuichi Matsuzaki, Hideaki Suzuki, Minetada Osano. 357-366 [doi]
- Critical Values in Asynchronous Random Boolean NetworksBertrand Mesot, Christof Teuscher. 367-376 [doi]
- Artificial Organisms That SleepMarco Mirolli, Domenico Parisi. 377-386 [doi]
- Visualizing Evolutionary Dynamics of Self-Replicators Using Graph-Based GenealogyChris Salzberg, Antony Antony, Hiroki Sayama. 387-394 [doi]
- The Baldwin Effect Revisited: Three Steps Characterized by the Quantitative Evolution of Phenotypic PlasticityReiji Suzuki, Takaya Arita. 395-404 [doi]
- Does the Red Queen Reign in the Kingdom of Digital Organisms?Claus O. Wilke. 405-414 [doi]
- Conditions for Stable Vowel Systems in a PopulationBart de Boer. 415-424 [doi]
- Piep Piep Piep - Ich Hab Dich Lieb: Rhythm as an Indicator of Mate QualityEva van den Broek, Peter M. Todd. 425-433 [doi]
- Evolving Agent Societies with VUShapeP. C. Buzing, A. E. Eiben, Martijn C. Schut. 434-441 [doi]
- Why Synonymy Is Rare: Fitness Is in the SpeakerJames R. Hurford. 442-451 [doi]
- A Noisy Way to Evolve Signaling BehaviourTudor Jenkins. 452-461 [doi]
- Language Games with Mixed PopulationsMichael Lewin, Emmet Spier. 462-471 [doi]
- Artificial Agents and Natural DeterminersJoris Van Looveren. 472-481 [doi]
- Coevolution of Bridsong Grammar without ImitationKazutoshi Sasahara, Takashi Ikegami. 482-490 [doi]
- Systemic Architecture for Audio Signal ProcessingRolf Schatten. 491-498 [doi]
- Semantic Generalisation and the Inference of MeaningAndrew D. M. Smith. 499-506 [doi]
- Language Evolution in Populations: Extending the Iterated Learning ModelKenny Smith, James R. Hurford. 507-516 [doi]
- Learning Biases for the Evolution of Linguistic Structure: An Associative Network ModelKenny Smith. 517-524 [doi]
- The Learning and Emergence of Mildly Context Sensitive LanguagesEdward P. Stabler, Travis C. Collier, Gregory M. Kobele, Yoosook Lee, Ying Lin, Jason Riggle, Yuan Yao, Charles E. Taylor. 525-534 [doi]
- THSim v3.2: The Talking Heads Simulation ToolPaul Vogt. 535-544 [doi]
- Grounded Lexicon Formation without Explicit Reference Transfer: Who s Talking to Who?Paul Vogt. 545-552 [doi]
- Optimal Communication in a Noisy and Heterogeneous EnvironmentWillem H. Zuidema. 553-563 [doi]
- A Clustering Algorithm Based on the Ants Self-Assembly BehaviorHanene Azzag, Nicolas Monmarché, Mohamed Slimane, Christiane Guinot, Gilles Venturini. 564-571 [doi]
- A Multi-agent Based approach to Modelling and Rendering of 3D Tree Bark TexturesBan Tao, Changshui Zhang, Shu Wei. 572-579 [doi]
- Measuring the Dynamics of Artificial EvolutionMikhail S. Burtsev. 580-587 [doi]
- Pattern Recognition in a BucketChrisantha Fernando, Sampsa Sojakka. 588-597 [doi]
- Discovering Clusters in Spatial Data Using Swarm IntelligenceGianluigi Folino, Agostino Forestiero, Giandomenico Spezzano. 598-605 [doi]
- When Can We Call a System Self-Organizing?Carlos Gershenson, Francis Heylighen. 606-614 [doi]
- Contextual Random Boolean NetworksCarlos Gershenson, Jan Broekaert, Diederik Aerts. 615-624 [doi]
- Representation of Genotype and Phenotype in a Coherent Framework Based on Extended L-SystemsOle Kniemeyer, Gerhard H. Buck-Sorlin, Winfried Kurth. 625-634 [doi]
- Integrated-Adaptive Genetic AlgorithmsHenri Luchian, Ovidiu Gheorghies. 635-642 [doi]
- Simulating the Evolution of Ant Behaviour in Evaluating Nest SitesJames A. R. Marshall, Tim Kovacs, Anna R. Dornhaus, Nigel R. Franks. 643-650 [doi]
- Evolving Evolutionary Algorithms Using Multi Expression ProgrammingMihai Oltean, Crina Grosan. 651-658 [doi]
- Modelling Artificial Ecosystem Selection: A Preliminary InvestigationAlexandra S. Penn. 659-666 [doi]
- Measuring Self-Organization via ObserversDaniel Polani. 667-675 [doi]
- General Framework for Evolutionary ActivityMichael J. Raven, Mark A. Bedau. 676-685 [doi]
- Developing and Testing Methods for Microarray Data Analysis Using an Artificial Life FrameworkDirk Repsilber, Jan T. Kim. 686-695 [doi]
- Approaching Virtual Organism by PheGeKlaus Seidl. 696-705 [doi]
- Robustness to Damage of Biological and Synthetic NetworksRoberto Serra, Marco Villani, Alessandro Semeria. 706-715 [doi]
- An Agent-Based Approach to Routing in Communications Networks with Swarm IntelligenceHengwei Shen, Shoichiro Asano. 716-723 [doi]
- Biomorphs Implemented as a Data and Signals Cellular AutomatonAndré Stauffer, Moshe Sipper. 724-732 [doi]
- Analyzing the Performance of Winner-Take-All and Voting-Based Action Selection Policies within the Two-Resource ProblemOrlando Avila-García, Lola Cañamero, I. René J. A. te Boekhorst. 733-742 [doi]
- Are There Representations in Embodied Evolved Agents? Taking MeasuresHezi Avraham, Gal Chechik, Eytan Ruppin. 743-752 [doi]
- Evolving Fractal Gene Regulatory Networks for Robot ControlPeter J. Bentley. 753-762 [doi]
- Explorations of Task-Dependent Visual Morphologies in Competitive Co-evolutionary ExperimentsGunnar Búason, Tom Ziemke. 763-770 [doi]
- Optimal Morphology of a Biologically-Inspired Whisker Array on an Obstacle-Avoiding RobotMiriam Fend, Hiroshi Yokoi, Rolf Pfeifer. 771-780 [doi]
- Phase Transitions in Self-Organising Sensor NetworksMark Foreman, Mikhail Prokopenko, Peter Wang. 781-791 [doi]
- Artificial Metabolism: Towards True Energetic Autonomy in Artificial LifeIoannis Ieropoulos, Chris Melhuish, John Greenman. 792-799 [doi]
- An Imitation Game for Emerging Action CategoriesBart Jansen. 800-809 [doi]
- Multi-agent Model of Biological SwarmingRobert Mach, Frank Schweitzer. 810-820 [doi]
- Visually Guided Physically Simulated Agents with Evolved MorphologiesIan MacInnes. 821-828 [doi]
- The Robot in the Swarm: An Investigation into Agent Embodiment within Virtual Robotic SwarmsChrystopher L. Nehaniv, Kerstin Dautenhahn, Adam Lee Newton. 829-838 [doi]
- Building a Hybrid Society of Mind Using Components from Ten Different AuthorsCiarán O Leary, Mark Humphrys. 839-846 [doi]
- Requirements for Getting a Robot to Grow upPeter Ross, Emma Hart, Alistair Lawson, Andrew Webb, Erich Prem, Patrick Poelz, Giovanna Morgavi. 847-856 [doi]
- Coevolving Communication and Cooperation for Lattice Formation TasksJekanthan Thangavelautham, Tim D. Barfoot, Gabriele M. T. D Eleuterio. 857-864 [doi]
- Evolving Aggregation Behaviors in a Swarm of RobotsVito Trianni, Roderich Groß, Thomas Halva Labella, Erol Sahin, Marco Dorigo. 865-874 [doi]
- Low-Level Visual HomingAndrew Vardy, Franz Oppacher. 875-884 [doi]
- Controlling a Simulated Khepera with an XCS Classifier System with MemoryAndrew Webb, Emma Hart, Peter Ross, Alistair Lawson. 885-892 [doi]
- Collective Decision-Making and Behaviour Transitions in Distributed Ad Hoc Wireless Networks of Mobile Robots: Target-HuntingJan Wessnitzer, Chris Melhuish. 893-902 [doi]